Solar panels on transparent substrates

ABSTRACT

A solar panel array includes at least one solar panel including a transparent substrate on which are mounted photovoltaic cells. A battery is electrically connected to the at least one solar panel, and a light is electrically connected to the at least one solar panel.

FIELD OF THE INVENTION

The present invention relates generally to solar panels and particularlyto an array of solar panels on transparent substrates.

BACKGROUND OF THE INVENTION

Various exterior lighting systems use photovoltaic panels (solar panels)powered by batteries. Sunlight impinges on the solar panel and chargesthe battery or batteries during the day time. The battery cansubsequently provide a source of electricity for a lighting elementduring the nighttime. The lighting element may be wall-mounted orpole-mounted.

Prior art solar panels have one surface facing the sun, on which thephotovoltaic cells are mounted. The side which does not face the sun issealed with an opaque color (usually black) and is typically mounted ina case or housing.

SUMMARY OF THE INVENTION

The present invention seeks to provide an array of solar panels ontransparent substrates, in which both sides of the solar panels are usedto generate electricity, as is described more in detail hereinbelow. Inthe present invention, unlike the prior art, both sides of the solarpanel have light impinging thereon to generate current. Although oneside may be more efficient in generating electricity from light than theother side, nevertheless the side that does not directly face the lightsource (e.g., the sun) is used to generate electric current.

The side that faces the light source directly is referred to as thedirect side and the opposite side, which faces away from the lightsource, is referred to as the indirect side.

In one arrangement, there is a plurality of transparent solar panels,wherein one solar panel is opposite another solar panel. The light fromthe light source (e.g., sun) impinges directly on the direct side of afirst one of the solar panels, passes through that solar panel and thenimpinges on the indirect side of the opposite solar panel. Thus, theopposite solar panel converts light to electricity from its direct sideand additionally from its indirect side. A reflector (e.g., mirror) maybe provided that reflects light back to the indirect side of the firstsolar panel so that the first solar panel also generates electricityfrom the direct side and the indirect side.

The solar panels can be used to provide electricity to a light fixtureor other electrical components.

The solar panels may come in any shape, such as but not limited to, flatcurved, concave, any other geometric shape.

There is provided in accordance with an embodiment of the invention asolar panel array including at least one solar panel including atransparent substrate on which are mounted photovoltaic cells, a batteryelectrically connected to the at least one solar panels, and a lightelectrically connected to the at least one solar panels.

In accordance with an embodiment of the invention the at least one solarpanel includes a plurality of solar panels, each solar panel including atransparent substrate on which are mounted photovoltaic cells, each ofthe substrates including a direct side, defined as a side that directlyfaces a light source, and an indirect side, opposite to the direct side,which faces away from the light source, wherein a first one of the solarpanels is opposite a second one of the solar panels.

In accordance with an embodiment of the invention light passing throughthe at least one solar panel is reflected off a reflector.

In accordance with an embodiment of the invention light passes throughthe first one of the solar panels and is reflected off the indirect sideof the second one of the solar panels.

In accordance with an embodiment of the invention a solar panel arrayincludes a plurality of solar panels, each solar panel including atransparent substrate on which are mounted photovoltaic cells, thesubstrate including a direct side, defined as a side that directly facesa light source, and an indirect side, opposite to the direct side, whichfaces away from the light source, wherein a first one of the solarpanels is opposite a second one of the solar panels, and light from thelight source impinges directly on the direct side of the first one ofthe solar panels, passes through the first one of the solar panels andthen impinges on the indirect side of the second one of the solarpanels, wherein the second one of the solar panels converts light toelectricity from its direct side and additionally from its indirectside.

In accordance with an embodiment of the invention a reflector may bearranged to reflect light back to the indirect side of the first one ofthe solar panels so that the first one of the solar panels convertslight to electricity from its direct side and additionally from itsindirect side.

In accordance with an embodiment of the invention a battery iselectrically connected to the solar panels. A light may be electricallyconnected to the solar panels.

In accordance with an embodiment of the invention more than one pair ofsolar panels are arranged opposite to each other.

The photovoltaic cells may be electrically connected to one another inseries or parallel.

BRIEF DESCRIPTION OF THE DRAWINGS

The present invention will be understood and appreciated more fully fromthe following detailed description taken in conjunction with thedrawings in which:

FIG. 1 is a simplified pictorial illustration of a solar panel array,constructed and operative in accordance with a non-limiting embodimentof the present invention;

FIG. 2 is a simplified schematic illustration of light impinging on thedirect and indirect sides of the solar panel with its photovoltaiccells; and

FIG. 3 is a simplified pictorial illustration of a solar panel array, inwhich transparent panels are placed one behind the other and lightpasses through one panel and impinges upon and passes through the nextpanel, in accordance with a non-limiting embodiment of the presentinvention.

DETAILED DESCRIPTION OF EMBODIMENTS

Reference is now made to FIG. 1, which illustrates a solar panel array10, constructed and operative in accordance with a non-limitingembodiment of the present invention.

The solar panel array 10 includes a plurality of solar panels 12. In thenon-limiting illustrated embodiment, there are two pairs of oppositesolar panels (a total of four panels). The solar panels 12 may bemounted in a frame or housing 14 provided with a cover 16 for mountingon a fixture 18, such as a wall-mounted fixture.

Each solar panel 12 includes a transparent substrate 20, such as made ofglass or other suitable material (e.g., polycarbonate), on which aremounted photovoltaic cells 22. (One possible arrangement of photovoltaiccells 22 is shown in FIG. 1, but the invention is not limited to thisarrangement.)

Reference is now made to FIG. 2, which illustrates one pair of solarpanels 12. The side of solar panel 12 that directly faces the lightsource 13 (e.g., sun) is referred to as the direct side 15 and theopposite side, which faces away from the light source, is referred to asthe indirect side 17. The photovoltaic cells 22 are mounted on thedirect side 15 of transparent substrate 22. A front face 24 of thephotovoltaic cell 22 receives light directly from the light source 13.However, since the substrate 22 is transparent, light passes throughsubstrate 22 (the top one in FIG. 2) and impinges on the indirect side17 of the opposite solar panel 12 (the bottom one in FIG. 2), passesthrough substrate 20 of the bottom panel 12 and impinges on a rear face26 of the photovoltaic cell 22 mounted on that opposite solar panel 12.Surprisingly, the inventor has discovered that the rear face 26 of thephotovoltaic cell 22, although not intended for generating electricityand usually blocked in the prior art from receiving light by an opaquebacking, when exposed to light passing through the thickness of thetransparent substrate 20, also generates electricity.

In accordance with an embodiment of the invention a reflector 28 (e.g.,mirror, flat or curved) may be arranged to reflect light back to theindirect side 17 of the first one of the pair of solar panels (the topone in FIG. 2) so that the first one of the solar panels converts lightto electricity from its direct side 15 and additionally from itsindirect side 17, just as the second one of the pair of solar panels(the bottom one in FIG. 2) converts light to electricity from its directside 15 and its indirect side 17. The reflector 28 may be positioned tothe side of one of the solar panels or may be positioned behind on ofthe solar panels (in which case, the reflected light passes through thethickness of the transparent substrate).

It is not essential to have a dedicated reflector. Instead, light can bereflected off the second one of the pair of solar panels (the bottom onein FIG. 2) back to the first one of the pair of solar panels (the topone in FIG. 2). For example, as respectively indicated by referencenumerals 33A, 33B and 33C, light can be reflected off the indirect sideof the second panel (33A) (and may be reflected back to the first one ofthe pair of solar panels or directed to another place); light can passthrough a portion of the thickness of the second panel and be reflectedfrom some surface inside the second panel (33B); or light can completelypass through the thickness of the second panel and be reflected from theback of the direct side of the second panel (33C).

The photovoltaic cells 22 may be, without limitation, monocrystalline,polycrystalline or amorphous film cells.

The solar panel array 10 generates electricity which is stored in one ormore batteries 30, which are in electrical communication with solarpanel array 10. The one or more batteries 30 power one or more lights 32(such as, but not limited to, LED lights) of a light fixture. Thebatteries 30 may be located at the top of the fixture or at any otherconvenient location.

The photovoltaic cells 22 may be electrically connected to one anotherin series or parallel.

Instead of being completely transparent, the substrates 20 may betranslucent.

Reference is now made to FIG. 3, which illustrates another solar panelarray. In this arrangement, the transparent panels 12 are placed onebehind the other and light passes through one panel and impinges uponand passes through the next panel. The photovoltaic cells 22 arearranged so that the photovoltaic cells 22 on a first one of the solarpanels allow at least some of the light to reach the photovoltaic cells22 on the next subsequent solar panel.

1-11. (canceled)
 12. A solar panel array comprising: an arrangement ofsolar panels, each of said solar panels comprising a transparentsubstrate on which are mounted photovoltaic cells, wherein a battery andan electric light are electrically connected to said solar panels;wherein each of said transparent substrates comprises a direct side,defined as a side that directly faces a light source, and an indirectside, opposite to the direct side, which faces away from the lightsource, wherein a first one of said solar panels is opposite a secondone of said solar panels; and wherein a light ray from said light sourcepasses through the first one of said solar panels and is reflected as areflected ray off the indirect side of the second one of said solarpanels back to the indirect said of the first one of said solar panels,said light ray and said reflected ray causing said photovoltaic cells onthe first one of said solar panels to generate electricity to power saidbattery and illuminate said electric light.
 13. The solar panel arrayaccording to claim 12, wherein the light ray passes through the firstone of said solar panels and passes through a portion of a thickness ofthe second one of said solar panels and is reflected from some surfaceinside the second one of said solar panels.
 14. The solar panel arrayaccording to claim 12, wherein the light ray passes through the firstone of said solar panels and completely passes through a thickness ofthe second one of said solar panels and is reflected from a back of thedirect side of the second one of said solar panels.
 15. The solar panelarray according to claim 12, wherein the light ray impinges directly onthe direct side of the first one of the solar panels, passes through thefirst one of the solar panels and then impinges on the indirect side ofthe second one of the solar panels, and wherein said second one of thesolar panels converts light to electricity from its direct side andadditionally from its indirect side.
 16. The solar panel array accordingto claim 12, further comprising a reflector arranged to reflect lightback to the indirect side of said first one of the solar panels so thatsaid first one of the solar panels converts light to electricity fromits direct side and additionally from its indirect side.
 17. The solarpanel array according to claim 12, comprising more than one pair ofsolar panels arranged opposite to each other.
 18. The solar panel arrayaccording to claim 12, wherein said photovoltaic cells are electricallyconnected to one another in series.
 19. The solar panel array accordingto claim 12, wherein said photovoltaic cells are electrically connectedto one another in parallel.